1. Pharmacology I Session One Pharmacological Principles

2. References Pharmacology for Canadian Health Care Practice - Chapter 2 Canadian Fundamentals of Nursing – Chapter 33

3. Lesson Objectives To discuss the application of 3 pharmacology principles in LPN practice To describe drugs name and forms To describe the concepts and phases of pharmacokinetics

4. Drug Any chemical that affects the physiological processes of a living organism

5. Pharmacology The study or science of drugs

6. Drug Names Chemical name Describes the drug ’ s chemical composition and molecular structure Generic name (nonproprietary name) Name given by Health Canada under the Food and Drugs Act and Food and Drug Regulations Trade name (proprietary name) The drug has a registered trademark; use of the name restricted by the drug ’ s patent owner (usually the manufacturer)

7. Drug Names (example) Chemical name (+/-)-2-(p-isobutylphenyl) propionic acid Generic name ibuprofen Trade name Motrin ®, Advil ®

8. Figure 2-1 The chemical, generic, and trade names for the common analgesic ibuprofen are listed next to the chemical structure of the drug.

9. Pharmacological Principles Pharmacokinetics Pharmacodynamics Pharmacotherapeutics

10. Pharmacokinetics The study of what the body does to the drug – Absorption – Distribution – Metabolism – Excretion

11. Pharmacodynamics The study of what the drug does to the body – The mechanism of drug actions in living tissues

12. Pharmacotherapeutics The use of drugs and the clinical indications for drugs to prevent and treat diseases

13. Pharmacokinetics: Absorption The rate at which a drug leaves its site of administration, and the extent to which absorption occurs – What is meant by the term “bioavailability”?

14. Factors That Affect Absorption Administration route of the drug Food or fluids administered with the drug Dosage formulation Status of the absorptive surface Rate of blood flow to the small intestine Acidity of the stomach Status of GI motility

15. Routes A drug ’ s route of administration affects the rate and extent of absorption of that drug – Enteral (GI tract) – Parenteral – Topical

16. Distribution The transport of a drug in the body by the bloodstream to its site of action

17. Distribution of Drugs Lipid Soluble Drugs – Easily pass through cell membranes – Can cause toxicity – Tend to accumulate in lipid tissues – Must be made water soluble by the liver to be excreted – High risk for toxicity – The elderly are most at risk for toxicity from lipid soluble drugs

18. Distribution of Drugs Protein Bound Drugs – Only a portion of a drug is considered “unbound” and therefore available to bind at receptor sites – Protein-binding varies according to drug Example: if a drug is 80% protein bound that means only 20% of the drug is ever available to bind to receptor sites. The percentage doesn’t change. As the unbound drug is used up, more of the bound drug is released into the circulation Think: What might happen if a patient is malnourished and does not have sufficient protein intake?

19. Metabolism/Biotransformation Biological transformation of a drug into: – An inactive metabolite – A more soluble compound – A more potent metabolite

20. Metabolism/Biotransformation (cont ’ d) – Organs or body tissues – Liver (main) – Skeletal muscle – Kidneys – Lungs – Plasma – Intestinal mucosa

21. Metabolism/Biotransformation (cont ’ d) Factors that decrease metabolism Cardiovascular dysfunction Renal insufficiency Starvation Obstructive jaundice Slow acetylator (what does this term mean?)

22. Metabolism/Biotransformation (cont ’ d) Factors that increase metabolism Fast acetylator Barbiturates

23. Metabolism/Biotransformation (cont ’ d) Delayed drug metabolism results in: Accumulation of drugs Prolonged action of the drugs Stimulating drug metabolism causes: Diminished pharmacological effects

24. Excretion The elimination of drugs from the body Kidneys (main organ) Bowels (via bile from the liver) Skin Lungs Breast milk

25. Figure 2-5 Renal drug excretion. The primary processes involved in drug excretion and the approximate location that these processes take place in the kidney are illustrated.

26. Half-life The time it takes for one half of the original amount of a drug in the body to be removed A measure of the rate at which drugs are removed from the body